A comparison of solid and liquid media for resuscitation of starvation- and low-temperature-induced nonculturable cells of Aeromonas hydrophila

Like many other gram-negative bacteria, starved cells of Aeromonas hydrophila can be induced into a viable but nonculturable (VBNC) state by incubation at low temperature, as shown here by using various bacterial enumeration methods. Starved A. hydrophila strain HR7 cells at 4 degrees C reached the nonculturable stage in about 45 days. The cells were resuscitated by either a solid medium resuscitation method, using solid agar amended with H2O2-degrading agents, catalase or sodium pyruvate, or a liquid medium resuscitation method, by incubating nonculturable cells in liquid media containing these compounds before spreading onto plates. The liquid medium resuscitation method using catalase resulted in nearly complete recovery of nonculturable cells.     

Lytic β-1,3 Glucanase from Arthrobacter: Pattern of Action

The action pattern of lytic β-1,3 glucanase (glucanase I) from Arthrobacter which liberates predominantly laminaripentaose from various β-glucans has been studied. The enzyme was not active on short linear laminaridextrins, but was active on an enzymatically synthesized, linear β-1,3 oligoglucan preparation. Any intactness of the glucose residues of the chain ends of a substrate did not seem to be necessary for the action of the enzyme. The results of determination of laminaripentaose during a relatively early phase of the reaction suggested that about half of the reducing power liberated in the medium might be explained by the formation of the sugar. It seems that the formation of laminaripentaose relates to the initial attack of glucanase 1 on β-1,3 glucan chains.     

The Structure and Characterization of the Surface Protein Layer of a Comamonas-Like Organism

The regular surface layer of a strain of a Comamonas-like organism was examined by electron microscopy. The surface layer protein was easily extracted from the cell surface by a 2.5 M solution of lithium chloride. The protein subunit has a molecular size of 32,000 daltons, but usually forms a large aggregate of more than 1,200,000 daltons. In the extract it formed a regular array of p4 symmetry and was observed to be intimately associated with fragments of lipopolysaccharide. The size of a subunit determined by the negative staining method and the image processing method measured 5.2 × 6.4 nm (width and length), was arranged in a cobblestone-like pattern, and was located in a lattice space measuring 13.0 nm square.     

Expression of Notch receptors and ligands on immature and mature T cells

Notch plays multiple roles in T cell development in the thymus and T cell differentiation in the periphery. In order to systematically examine the role of Notch in T cell biology, we determined the cell surface expression of all Notch receptors and ligands on various populations of T cells by using a panel of specific monoclonal antibodies we recently established. Notch1 and Notch3 were upregulated at double-negative (DN) 2-DN4 stages of immature thymocytes, then downregulated on mature single-positive thymocytes and peripheral T cells, but were rapidly upregulated again upon activation. Notch2 was consistently expressed on T cells while Notch4 was not. Jagged1 and Jagged2 were expressed at double-positive stage of immature T cells. Jagged2 was also inducible on mature T cells upon activation. In contrast, no Delta-like (Dll) 1 or Dll4 expression was observed on T cells. These comprehensive profiling of the expression of Notch receptors and ligands would be informative to fully understand the role of individual Notch receptors and ligands in T cell development and differentiation.     

New EIA technique for tyrosinase in human melanocytes and its application

The expression of tyrosinase in melanocytes relates to skin pigmentation or depigmentation. Although many types of drugs with whitening effects are well known, neither the definite effect nor the mechanism underlying the effect has been elucidated. In this study, we attempted to develop the rapid and simple EIA technique for tyrosinase protein, then this technique was applied to normal human cultured melanocytes. When primary antibody and tyrosinase were incubated in non-coated 96-well microtitre plates for 48 hours at 4 degrees C, then the solution in tyrosinase-coated plate was further incubated for another 1 hour at 37 degrees C. Thus the best results were obtained. The developed EIA system could detect authentic tyrosinase until 0.1-1.0 ng/mL. This EIA technique could also be applied to human cultured melanocytes. The melanocytes cultured with endothelin-1 induced tyrosinase like immune reactive protein. The protein induction with endothelin-1 was suppressed by BQ 123, ETa receptor antagonists. The simple EIA technique developed for tyrosinase may give a clue to determination of the onset mechanisms underlying pigmental diseases of the skin as well as the mechanisms underlying the effects of various whitening drugs.     

Phlebotomine sand flies (Diptera: Psychodidae) in the municipality of Várzea Grande: an area of transmission of visceral leishmaniasis in the state of Mato Grosso, Brazil

Visceral leishmaniasis (VL) has been naturally transmitted in periurban areas due to the emergence and reemergence of its vectors in such areas. Aimed to further knowledge on ecological aspects affecting the occurrence of phlebotomine sand flies in VL transmission areas in the municipality of Várzea Grande, state of Mato Grosso (MT), Brazil, sand fly captures were carried out. Monthly collections of sand flies were undertaken with CDC light-traps, which were left in both intradomiciliary and peridomiciliary areas of ten residences during four consecutive days between January 2004 and June 2006. Twenty-two species of genus Lutzomyia and one of Brumptomyia were captured. The most abundant species was Lutzomyia longipalpis (65.23%), followed by L. evandroi (16.26%), L. lenti (7.69%), L. whitmani (4.92%), L. sallesi (2.34%) and L. termitophila (1.32%). The highest density of the main VL vector, L. longipalpis, was found in peridomiciliary areas, mostly males. No significant correlation was found between environment (temperature, air relative humidity and rain fall) and phlebotomine density; although a slight increase in sand fly density has been observed in the period following rainfalls, particularly L. longipalpis. No correlation was observed between distribution and density of L. longipalpis, prevalence of human VL cases and the presence of serologically positive dogs. The presence of infected dogs, increased vector density, susceptibility rate and interruption of epidemiological surveillance may raise the risk of VL transmission to man in Várzea Grande.     

Molecular interaction between fukutin and POMGnT1 in the glycosylation pathway of alpha-dystroglycan

The recent identification of mutations in genes encoding demonstrated or putative glycosyltransferases has revealed a novel mechanism for congenital muscular dystrophy. Hypoglycosylated alpha-dystroglycan (alpha-DG) is commonly seen in Fukuyama-type congenital muscular dystrophy (FCMD), muscle-eye-brain disease (MEB), Walker-Warburg syndrome (WWS), and Large(myd) mice. POMGnT1 and POMTs, the gene products responsible for MEB and WWS, respectively, synthesize unique O-mannose sugar chains on alpha-DG. The function of fukutin, the gene product responsible for FCMD, remains undetermined. Here we show that fukutin co-localizes with POMGnT1 in the Golgi apparatus. Direct interaction between fukutin and POMGnT1 was confirmed by co-immunoprecipitation and two-hybrid analyses. The transmembrane region of fukutin mediates its localization to the Golgi and participates in the interaction with POMGnT1. Y371C, a missense mutation found in FCMD, retains fukutin in the ER and also redirects POMGnT1 to the ER. Finally, we demonstrate reduced POMGnT1 enzymatic activity in transgenic knock-in mice carrying the retrotransposal insertion in the fukutin gene, the prevalent mutation in FCMD. From these findings, we propose that fukutin forms a complex with POMGnT1 and may modulate its enzymatic activity.     

Characterization of the membrane domain subunit NuoJ (ND6) of the NADH-quinone oxidoreductase from Escherichia coli by chromosomal DNA manipulation

The ND6 subunit is one of seven mitochondrial DNA-encoded subunits of the proton-translocating NADH-quinone oxidoreductase (complex I). Physiological importance of the ND6 subunit is becoming increasingly apparent because a number of mutations leading to amino acid changes in this subunit have been found to be associated with known mitochondrial diseases. Using the Escherichia coli enzyme (NDH-1), we have investigated the NuoJ subunit (the E. coli counterpart of ND6) by employing a chromosomal DNA manipulation technique. A series of point mutations was constructed directly on the nuoJ gene in the chromosome targeting at highly conserved residues. Analyses with blue-native gel electrophoresis and immunological methods revealed that, in all point mutants, the assembly of NDH-1 was normal and that the deamino-NADH-K(3)Fe(CN)(6) reductase activity of the membrane was essentially the same as that of the wild-type. However, energy-coupled NDH-1 activities were affected to varied extents. Among them, mutants of the Val-65 residue that is located in the most conserved transmembrane segment significantly lost the coupled electron-transfer activities and exhibited diminished membrane potential and proton translocation. This may suggest that Val-65 or the area around it is important for energy transduction of the coupling site 1. Together with the results on mutations related to human diseases, possible functional roles of the NuoJ subunit have been discussed.